Physics 201. Professor P. Q. Hung. 311B, Physics Building. Physics 201 p. 1/1
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1 Physics 201 p. 1/1 Physics 201 Professor P. Q. Hung 311B, Physics Building
2 Physics 201 p. 2/1 Magnetic flux What is a magnetic flux? This is very similar to the concept of an electric flux through an area A. Here we look at the magnetic flux through a closed loop.
3 Physics 201 p. 2/1 Magnetic flux What is a magnetic flux? This is very similar to the concept of an electric flux through an area A. Here we look at the magnetic flux through a closed loop. Definition of magnetic flux: Φ B = B. A = BA cos θ θ: Angle between the magnetic field and the normal to the surface spanned by the closed loop. Unit: 1W b = 1T.m 2.
4 Physics 201 p. 3/1 Magnetic flux If the loop lies along the filed direction, i.e. its normal is perpendicular to the field, there is no flux. The magnitude of the flux is maximal when θ = 0 0,
5 Magnetic flux If the loop lies along the filed direction, i.e. its normal is perpendicular to the field, there is no flux. The magnitude of the flux is maximal when θ = 0 0, Why am I interested in this? Because: It was discovered by Faraday that a changing magnetic flux induces an emf a current is produced if the magnetic flux changes with time This could happen if one can somehow mechanically generate a change in magnetic field. The dynamo is one of such examples. Physics 201 p. 3/1
6 Magnetic flux Physics 201 p. 4/1
7 Physics 201 p. 5/1 Faraday s law of induction Magnetic flux change Induced emf Induced current
8 Physics 201 p. 5/1 Faraday s law of induction Magnetic flux change Induced emf Induced current Faraday s Law of magnetic induction: E = N Φ B t where N is the number of turns in the coil.
9 Faraday s law of induction Physics 201 p. 6/1
10 Physics 201 p. 7/1 Faraday s law of induction A coil of 50 loops is pulled in 0.020s from between the poles of a magnet, where its area intercepts a flux of W b, to a place where the intercepted flux is W b. Determine the average emf induced in the coil. Solution: E =N Φ B t = 50 ( ) 10 4 W b 0.020s = 0.75V.
11 Faraday s law of induction A flat coil with radius 8.0mm has 50 loops of wire. It is placed in a magnetic field B = 0.30T in such a way that the maximum flux goes through it. Later, it is rotated in 0.020s to a position such that no flux goes through it. Find the average emf induced between the terminals of the coil. Solution: A = πr 2 = π(0.008m) 2 = m 2 E = T m s = 0.15V. Various interesting applications: Ground Fault Interruptor, Induction stove, Electric guitar pickups, tape deck, etc.. Physics 201 p. 8/1
12 Physics 201 p. 9/1 Lenz s Law How do I know which way the current goes when there is a changing magnetic flux going through a closed loop?
13 Physics 201 p. 9/1 Lenz s Law How do I know which way the current goes when there is a changing magnetic flux going through a closed loop? Lenz s law: The induced current resulting from a changing magnetic flux flows in the direction such that the induced magnetic field opposes the original flux change. See the demos and the pictures shown in class. Illustrative discussion next concerning motional emf.
14 Lenz s Law Physics 201 p. 10/1
15 Lenz s Law Physics 201 p. 11/1
16 Physics 201 p. 12/1 Motional emf In the Figure shown in class, a metal rod makes contact with a partial circuit and completes the circuit. The circuit is perpendicular to a magnetic field (going into the page) with B = 0.15T. If the resistance is 3.0Ω, how large a force is needed to move the rod as indicated with a constant speed of 2.0 m/s? At what rate is energy dissipated in the resistor? The width is L = 50 cm
17 Physics 201 p. 13/1 Motional emf: Solution and insight As the rod moves to the right as shown, the magnetic flux going through the closed circuit increases an induced current is produced and flowing counterclockwise. Why? The right-hand rule shows that the induced magnetic field inside the loop is going out of the page and opposes the external magnetic field which is going into the page.
18 Physics 201 p. 13/1 Motional emf: Solution and insight As the rod moves to the right as shown, the magnetic flux going through the closed circuit increases an induced current is produced and flowing counterclockwise. Why? The right-hand rule shows that the induced magnetic field inside the loop is going out of the page and opposes the external magnetic field which is going into the page. What is the induced emf? E =N Φ B t = (1)B A t = BL x t = BLv = (0.15T )(0.5m)(2.0m/s) = 0.15V
19 Physics 201 p. 14/1 Motional emf: Solution and insight Current: I = E R = 0.15V 3.0Ω = 0.05A.
20 Physics 201 p. 14/1 Motional emf: Solution and insight Current: I = E R = 0.15V 3.0Ω = 0.05A. Counterclockwise induced current the rod experiences a force pointing left due to the external magnetic field. Rod pulled to the right with constant speed this force must be balanced. F M = ILB = (0.05A)(0.50m)(0.15T ) = 3.75mN.
21 Physics 201 p. 15/1 Motional emf: Solution and insight The power loss in the resistor is P = I 2 R = (0.05A) 2 (3.0Ω) = 7.5mW
22 Physics 201 p. 15/1 Motional emf: Solution and insight The power loss in the resistor is P = I 2 R = (0.05A) 2 (3.0Ω) = 7.5mW Alternatively P = F v = (3.75mN)(2.0m/s) = 7.5mW
23 Motional emf Physics 201 p. 16/1
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